Contribute a cmake build file for hostthreadadapter, to aid building the intermediate versions of other host components.
// Copyright (c) 2010 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
// The API provides functionality which allows waiting on the aSync object
// to become signaled and to change status from signaled to unsignaled or vice
// versa.
/**
@file
@internalTechnology
*/
#ifndef __GUEST_EGL_SYNC_H_
#define __GUEST_EGL_SYNC_H_
NONSHARABLE_CLASS(CEglSync): public CBase
{
public:
/*-------------------------------------------------------------------*//*!
* \brief Factory function used to create a CEglSync instance
* \ingroup eglSync
* \param aFrontLock Reference to the lock protecting the sync map
* aHeap Reference to the Heap to be used by EGL Sync extension
* \param aSync the sync id for the new sync to be created
* \param aDisplay the display id of the associated display
* \param aType the sync type
* \return a pointer to the extension instance if successful or NULL otherwise
*//*-------------------------------------------------------------------*/
static CEglSync* Create(RFastLock& aFrontLock,
EGLSyncKHR aSync,
EGLDisplay aDisplay,
EGLenum aType);
/*-------------------------------------------------------------------*//*!
* \brief Public destructor
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
~CEglSync();
private:
/*-------------------------------------------------------------------*//*!
* \brief Private constructor
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
CEglSync(RFastLock& aFrontLock,
EGLSyncKHR aSync,
EGLDisplay aDisplay,
EGLenum aType);
/*-------------------------------------------------------------------*//*!
* \brief Private initialisation method to be used by the factory method
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
TInt Initialize();
public:
/*-------------------------------------------------------------------*//*!
* \brief Blocks the calling thread until the specified aSync object
* is signaled, or until <aTimeout> nanoseconds have passed.
* It is supposed that the lock protecting
* the sync map is already acquired. The call will release this lock.
* \ingroup eglSync
* \param aFlags If the EGL_FLUSH_COMMANDS_BIT_KHR bit is set in <aFlags>
* and <aSync> is unsignaled when the function is called, then the equivalent
* of Flush() will be performed for the current API context.
* \param aTimeout The thread will be unblocked when <aTimeout> is expired.
* If the <aTimeout> is to zero, the function just test the current status
* of the aSync object. If the <aTimeout> is set to EGL_FOREVER_KHR, then the
* function does not time out. For all other values, <aTimeout> is adjusted to
* the closest aValue which may be substantially longer than one nanosecond.
* \return EGL_CONDITION_SATISFIED if <aSync> was signaled before
* the timeout expired, which includes the case when <aSync> was already
* signaled when eglClientWaitSyncKHR was called; EGL_TIMEOUT_EXPIRED_KHR if the
* specified timeout period expired before <aSync> was signaled;
* EGL_FALSE if an error occurs.
* \error EGL_BAD_PARAMETER if <aFlags> does not equal
* to 0 or EGL_SYNC_FLUSH_COMMAND_BIT_KHR
*//*-------------------------------------------------------------------*/
EGLint ClientWaitSync(EGLint aFlags, EGLTimeKHR aTimeout);
/*-------------------------------------------------------------------*//*!
* \brief Signals or unsignals the reusable aSync object.
* \ingroup eglSync
* \param aMode Status of the aSync object. There are two possible states:
* EGL_SIGNALED_KHR and EGL_UNSIGNALED_KHR.
* \return EGL_SUCCESS if an operation was successful;
* EGL_BAD_MATCH if the type of <aSync> is not EGL_SYNC_REUSABLE_KHR
*//*-------------------------------------------------------------------*/
EGLint SignalSync(EGLenum aMode);
/*-------------------------------------------------------------------*//*!
* \brief Preapares the sync object for destruction.
* \ingroup eglSync
* \return EGL_TRUE if the object can be destroyed immediately (the sync lock is not released)
* EGL_FALSE if the object cannot be deleted (the sync lock is released)
*//*-------------------------------------------------------------------*/
EGLBoolean DestroySyncReady();
/*-------------------------------------------------------------------*//*!
* \brief Query an aAttribute of the aSync object
* \ingroup eglSync
* \param aDisplay Identifier of the display which owns the aSync object
* \param aValue Pointer to the aValue for the
* requested aAttribute which will be filled on function return.
* \return EGL_TRUE if an operation was successful and EGL_FALSE otherwise
* \error EGL_BAD_ATTRIBUTE if <aAttribute> does not lie within expected range;
* EGL_BAD_MATCH if <aAttribute> is not supported
* for the type of aSync object passed in <aSync>
*//*-------------------------------------------------------------------*/
EGLBoolean GetSyncAttrib(EGLint aAttribute, EGLint *aValue);
/*-------------------------------------------------------------------*//*!
* \brief Returns the associated display Id
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
EGLDisplay Display() const { return iDisplay; }
/*-------------------------------------------------------------------*//*!
* \brief Returns the sync type
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
EGLenum Type() const { return iSyncType; }
private:
const EGLSyncKHR iEglSync;
const EGLDisplay iDisplay;
const EGLenum iSyncType;
EGLenum iSyncState;
EGLBoolean iDestroyed;
EGLint iWaiters;
RMutex iSyncMutex;
RCondVar iSyncCondVar;
RFastLock& iFrontLock;
static const EGLint KSupportedFlags;
};
class CGuestEGL;
NONSHARABLE_CLASS(CEglSyncExtension): public CBase
{
public:
/*-------------------------------------------------------------------*//*!
* \brief Factory function used to create a CEglSyncExtension instance
* \ingroup eglSync
* \param aEglInstance Reference to the Egl Instance implementation object
* \return a pointer to the extension instance if successful or NUL otherwise
*//*-------------------------------------------------------------------*/
static CEglSyncExtension* Create(CGuestEGL& aEglInstance);
/*-------------------------------------------------------------------*//*!
* \brief Public destructor
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
~CEglSyncExtension();
private:
/*-------------------------------------------------------------------*//*!
* \brief Private initialisation method to be used by the factory method
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
EGLBoolean Construct();
/*-------------------------------------------------------------------*//*!
* \brief Private constructor
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
CEglSyncExtension(CGuestEGL& aEglInstance);
public:
/*-------------------------------------------------------------------*//*!
* \brief Create a aSync object for the specified display.
* \ingroup api
* \param aDisplay Identifier of the display which will own the aSync object
* \param type Type of the aSync object. EGL_SYNC_REUSABLE_KHR is only supported
* \param attrib_list Attribute-aValue list specifying attributes of the aSync
* object, terminated by an aAttribute entry EGL_NONE
* \return Handle for the created aSync object if successful, EGL_NO_SYNC_KHR otherwise
* \error EGL_BAD_DISPLAY if <aDisplay> is not a name of a valid EGLDisplay;
* EGL_NOT_INITIALIZED if the display object associated
* with the <aDisplay> has not been initialized;
* EGL_BAD_ATTRIBUTE if <attrib_list> is neither NULL nor empty (containing only EGL_NONE) or
* if <type> is not a supported type of aSync object;
* EGL_BAD_ALLOC if the memory allocation related to aSync object is not successful
* \note If <type> is EGL_SYNC_REUSABLE_KHR, a reusable aSync object is created.
* In this case <attrib_list> must be NULL or empty (containing only EGL_NONE).
* *//*-------------------------------------------------------------------*/
static EGLSyncKHR eglCreateSyncKHR(EGLDisplay aDisplay,
EGLenum aType,
const EGLint* aAttribList);
/*-------------------------------------------------------------------*//*!
* \brief Destroy a aSync object and free memory associated with it
* \ingroup api
* \param aDisplay Identifier of the display which owns the aSync object
* \param aSync Sync object handle.
* \return EGL_TRUE if deletion was successful and EGL_FALSE otherwise
* \error EGL_BAD_DISPLAY if <aDisplay> is not a name of a valid EGLDisplay;
* EGL_NOT_INITIALIZED if the display object associated
* with the <aDisplay> has not been initialized;
* EGL_BAD_PARAMETER if <aSync> is not a valid aSync object for <aDisplay>
* \note If any eglClientWaitSyncKHR commands are blocking on <aSync> when
* eglDestroySyncKHR is called, they will be woken up, as if <aSync> were signaled.
* If no errors are generated, <aSync> will no longer be the handle of a valid aSync object.
*//*-------------------------------------------------------------------*/
static EGLBoolean eglDestroySyncKHR(EGLDisplay aDisplay, EGLSyncKHR aSync);
/*-------------------------------------------------------------------*//*!
* \brief Blocks the calling thread until the specified aSync object
* is signaled, or until <aTimeout> nanoseconds have passed.
* \ingroup api
* \param aDisplay Identifier of the display which owns the aSync object.
* \param aSync Sync object handle.
* \param aFlags If the EGL_FLUSH_COMMANDS_BIT_KHR bit is set in <aFlags>
* and <aSync> is unsignaled when the function is called, then the equivalent
* of Flush() will be performed for the current API context.
* \param aTimeout The thread will be unblocked when <aTimeout> is expired.
* If the <aTimeout> is to zero, the function just test the current status
* of the aSync object. If the <aTimeout> is set to EGL_FOREVER_KHR, then the
* function does not time out. For all other values, <aTimeout> is adjusted to
* the closest aValue which may be substantially longer than one nanosecond.
* \return EGL_CONDITION_SATISFIED if <aSync> was signaled before
* the timeout expired, which includes the case when <aSync> was already
* signaled when eglClientWaitSyncKHR was called; EGL_TIMEOUT_EXPIRED_KHR if the
* specified timeout period expired before <aSync> was signaled;
* EGL_FALSE if an error occurs.
* \error EGL_BAD_DISPLAY if <aDisplay> is not a name of a valid EGLDisplay;
* EGL_NOT_INITIALIZED if the display object associated w
* ith the <aDisplay> has not been initialized;
* EGL_BAD_PARAMETER if <aSync> is not a valid aSync object for <aDisplay> or
* if <aFlags> does not equal to 0 or EGL_SYNC_FLUSH_COMMAND_BIT_KHR
* Note\ More than one eglClientWaitSyncKHR may
* be outstanding on the same <aSync> at any given time.
* When there are multiple threads blocked on the same <aSync> and the aSync object is signaled,
* all such threads are released, but the order in which they are released is not defined.
* If a aSync object is destroyed while an eglClientWaitSyncKHR is blocking on that object,
* eglClientWaitSyncKHR will unblock and return immediately, just as if the aSync object
* had been signaled prior to being destroyed.
*//*-------------------------------------------------------------------*/
static EGLint eglClientWaitSyncKHR(EGLDisplay aDisplay,
EGLSyncKHR aSync,
EGLint aFlags,
EGLTimeKHR aTimeout);
/*-------------------------------------------------------------------*//*!
* \brief Signals or unsignals the reusable aSync object.
* \ingroup api
* \param aDisplay Identifier of the display which owns the aSync object.
* \param aSync Sync object handle.
* \param aMode Status of the aSync object. There are two possible states:
* EGL_SIGNALED_KHR and EGL_UNSIGNALED_KHR.
* \return EGL_TRUE if an operation was successful and EGL_FALSE otherwise.
*//*-------------------------------------------------------------------*/
static EGLBoolean eglSignalSyncKHR(EGLDisplay aDisplay,
EGLSyncKHR aSync,
EGLenum aMode);
/*-------------------------------------------------------------------*//*!
* \brief Query an aAttribute of the aSync object
* \ingroup api
* \param aDisplay Identifier of the display which owns the aSync object
* \param aSync Sync object handle.
* \param aAttribute An aAttribute to be retrieved.
* \param aValue Pointer to the aValue for the requested aAttribute
* which will be filled on function return.
* \return EGL_TRUE if an operation was successful and EGL_FALSE otherwise
* \error EGL_BAD_DISPLAY if <aDisplay> is not a name of a valid EGLDisplay;
* EGL_NOT_INITIALIZED if the display object associated
* with the <aDisplay> has not been initialized;
* EGL_BAD_PARAMETER if <aSync> is not a valid aSync object for <aDisplay> or if <aValue> is not
* a valid pointer; EGL_BAD_ATTRIBUTE if <aAttribute> does not lie within expected range;
* EGL_BAD_MATCH if <aAttribute> is not supported for the type of aSync object passed in <aSync>
*//*-------------------------------------------------------------------*/
static EGLBoolean eglGetSyncAttribKHR(EGLDisplay aDisplay,
EGLSyncKHR aSync,
EGLint aAttribute,
EGLint* aValue);
/*-------------------------------------------------------------------*//*!
* \brief Signals or unsignals the reusable aSync object.
* \ingroup api
* \param aDisplay Identifier of the display which owns the aSync object.
* \param aSync Sync object handle.
* \param aSync Status of the aSync object. There are two possible states:
* EGL_SIGNALED_KHR and EGL_UNSIGNALED_KHR.
* \return EGL_SUCCESS if an operation was successful;
* EGL_BAD_DISPLAY if <aDisplay> is not a name of a valid EGLDisplay;
* EGL_NOT_INITIALIZED if the display object associated with the <aDisplay> has not
* been initialized; EGL_BAD_PARAMETER if <aSync> is not a valid aSync object for <aDisplay>
* or if <aSync> does not lie within expected range;
* EGL_BAD_MATCH if the type of <aSync> is not EGL_SYNC_REUSABLE_KHR
* \note This function does not generate an error.
*//*-------------------------------------------------------------------*/
static EGLint egl_Private_SignalSyncNOK(EGLDisplay aDisplay, EGLSyncKHR aSync, EGLenum aMode);
public:
/*-------------------------------------------------------------------*//*!
* \brief Initialisation request when a new display is created
* \ingroup eglSync
* \param aEglDisplay a display identifier
* \return EGL_SUCCESS if successful;
*//*-------------------------------------------------------------------*/
TInt EglSyncDisplayCreate(EGLDisplay aDisplay);
/*-------------------------------------------------------------------*//*!
* \brief Request to destroy all syncs associated with a display as preamble
* of destroying the specified display
* \ingroup eglSync
* \param aEglDisplay a display identifier
*//*-------------------------------------------------------------------*/
void EglSyncDisplayDestroy(EGLDisplay aDisplay);
private:
/*-------------------------------------------------------------------*//*!
* \brief Query and request to lock a specified display
* \ingroup eglSync
* \param aEglDisplay a display identifier
* \return EGL_SUCCESS if successful;
* EGL_BAD_DISPLAY is not a name of a valid EGLDisplay
* EGL_NOT_INITIALIZED if the display object associated
* with the <aEglDisplay> has not been initialized
*//*-------------------------------------------------------------------*/
EGLint FindAndLockDisplay(EGLDisplay aDisplay);
/*-------------------------------------------------------------------*//*!
* \brief Releases the lock associated with a valid EGLDisplay
* \ingroup eglSync
* \param aEglDisplay a display identifier
*//*-------------------------------------------------------------------*/
void ReleaseDisplayLock(EGLDisplay aDisplay);
private:
/*-------------------------------------------------------------------*//*!
* \brief Private implementation for <eglCreateSyncKHR> public static interface
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
EGLSyncKHR EglCreateSyncKHR(EGLDisplay aDisplay, EGLenum aType, const EGLint* aAttribList);
/*-------------------------------------------------------------------*//*!
* \brief Private implementation for <eglDestroySyncKHR> public static interface
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
EGLBoolean EglDestroySyncKHR(EGLDisplay aDisplay, EGLSyncKHR aSync);
/*-------------------------------------------------------------------*//*!
* \brief Private implementation for <eglClientWaitSyncKHR> public static interface
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
EGLint EglClientWaitSyncKHR(EGLDisplay aDisplay,
EGLSyncKHR aSync,
EGLint aFlags,
EGLTimeKHR aTimeout);
/*-------------------------------------------------------------------*//*!
* \brief Private implementation for <eglSignalSyncKHR> public static interface
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
EGLBoolean EglSignalSyncKHR(EGLDisplay aDisplay, EGLSyncKHR aSync, EGLenum aMode);
/*-------------------------------------------------------------------*//*!
* \brief Private implementation for <eglGetSyncAttribKHR> public static interface
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
EGLBoolean EglGetSyncAttribKHR(EGLDisplay aDisplay,
EGLSyncKHR aSync,
EGLint aAttribute,
EGLint* aValue);
/*-------------------------------------------------------------------*//*!
* \brief Private implementation for <egl_Private_SignalSyncNOK> public static interface
* \ingroup eglSync
*//*-------------------------------------------------------------------*/
EGLint Egl_Private_SignalSyncNOK(EGLDisplay aDisplay, EGLSyncKHR aSync, EGLenum aMode);
private:
/*-------------------------------------------------------------------*//*!
* \brief Creates a sync and inserts it in the sync map
* \ingroup eglSync
* \param aEglDisplay the id of the associated display
* \param aType The sync type
* \return the id of the sync created
*//*-------------------------------------------------------------------*/
EGLSyncKHR CreateSync(EGLDisplay aDisplay, EGLenum aType);
/*-------------------------------------------------------------------*//*!
* \brief Destroy a sync associated with a display
* \ingroup eglSync
* \param aEglDisplay the id of the associated display
*//*-------------------------------------------------------------------*/
void EglDestroySync(EGLDisplay aDisplay);
private:
typedef RHashMap<EGLint,CEglSync*> REglSyncHashMap;
REglSyncHashMap iEglSyncMap;
RFastLock iEglSyncMapLock;
EGLint iEglSyncId;
CGuestEGL& iEglInstance;
};
#endif /* __GUEST_EGL_SYNC_H_ */